eccentricity and v2 in proton-proton collisions at the lhc

Eccentricity and v2 in proton-proton collisions at the LHC

Yoshitaka Hatta

(U. Tsukuba)

in collaboration with

E. Avsar, C. Flensburg, J.-Y. Ollitrault, T. Ueda

arXiv:1009.5643 [hep-ph]

Contents

• High-multiplicity events at the LHC

• Flow in pp?

• DIPSY

• Eccentricity and v2 in pp

High-multiplicity pp events at the LHC

Like an AA collision !

pT>0.1GeV/c

high multiplicity pp 7TeVcomparable to ~18 nucleon

pairs, each colliding at 62.4GeV in CuCu

CMS PHOBOS

-2 +2

Phenomena usually discussed in the context of nucleus collisions may be observed in proton collisions !

Ridge in pp CMS Collaboration, arXiv:1009.4122

First unexpected result from the LHC !Possible collective effects in pp?

near-side, long-range rapidity correlation

Elliptic flow in pp

Luzum,Romatschke 0901.4588Prasad, Roy, Chattopadhyay 0910.4844d’Enterria, et al. 0910.3029Bozek 0911.2392Ortona, Denicol, Mota, Kodama, 0911.5158

Bautista, Cunqueiro, de Deus, Pajares 0905.3058Pierog, Porteboeuf, Karpenko, Werner, 1005.4526

Casalderrey-Solana, Wiedemann 0911.4400

Toy models : Woods-Saxon, Glauber, Hard Sphere, Gaussian….

Hot spot model

Parton + flux tube model

Proton’s transverse structure is either predetermined or random.

Participant eccentricityEvent plane may be different from the reaction plane.

Can be nonzero even at vanishing impact parameter due to fluctuations.

Important because high-multiplicity events mostly come from central collisions.

AA fluctuation of nucleons pp fluctuation of small-x gluons

QCD dipole modelMueller (1994~)

Very strong fluctuation in the gluon multiplicity Salam (1995) Very strong correlation in impact parameter space YH, Mueller (2007) Avsar, YH (2008)

These correlations are important to study correlations observables

Coordinate space formulation of the BFKL equation

Gluon number fluctuation

Probability distribution of the number of gluons in the dipole model

Salam (1995)

DIPSY

Full-fledged Monte Carlo event generator for pp based on the dipole model.

BFKL Running coupling (NLO)Energy conservation ( )Saturation effectsConfinement effectsMultiple scattering,Underlying events,Parton shower (ARIADNE)Hadronization (Pythia)

Flensburg, Gustafson, Lonnblad, arXiv:1103.4321extension of Avsar, Gustafson, Lonnblad (2005~)

Featuring:

Energy dependence is a prediction. No ad hoc retuning of parameters at different energies.

Some sample results from DIPSY @7TeV

Deconstructing high-multiplicity events

High-multiplicity pp events

= Upward fluctuation in the gluon number in proton’s w.f.

+ Multiple (more than 10) parton-parton interactions

Eccentricity in pp at 7 TeV

Shape of the area occupied by the “liberated” gluons.

Comparison with Pb-Pb

Figure by Luzum

Comparable to a 30% central Pb-Pb collision

Nature of eccentricity in pp

Conventional definition of the eccentricity at fixed b

is negative !

x

y

Nominal “overlapping region” is a poor guide in pp.

Empirical relation between the eccentricity and v2. Drescher et al. (2007)

In order to obtain large v2, a single event has to be both elliptic in shape and have high density.

taking care of incomplete equilibration

　 … and a similar relation between and v2f 4g²f4g

² ! v2

Elliptic flow at 7 TeV

~ 6%comparable to AA at LHC, RHIC

Aamodt et al, PRL105,252302

v°ow2 f2g

v°ow2 f4g

ALICE data for

ALICE preliminary

Bilandzic, talk at QCHS IX

dominate over the flow contribution….

v2f2g

“flow” “nonflow”

phcos2Ái j i ¼0:14

Large nonflow contribution due mostly to jets.

±» 1=Nch in AA

ALICE preliminary

ALICE preliminary

ALICE data for Bilandzic, talk at QCHS IX

v2f4g

positive from DIPSY

negative in the data and in MCs

(v2f4g)4

Sign change at large Nch Possible signature of flow.

(v°ow2 f 4g)4

Conclusions

• DIPSY can simulate high-multiplicity pp events including proper QCD dynamics in the transverse plane.

• Eccentricity is 30%, comparable to semi-central Pb collisions.

• Challenging to distinguish from non-flow correlations. Sign change of (v2{4})^4 can be a signature.